Respuesta :
The image showing the inclined plane and and the angle has been attached.
Answer:
The speed of the block when it is 6.25 m, vertically, above the ground is 10.15 m/s
Explanation:
A) Distance the block travels before coming to a momentary stop;
The block will rise to the same height it started at. Hence, the distance along second ramp is;
D = 11.5/sin21.5° = 11.5/0.3665 = 31.38m
B) From the question the ramp is frictionless, and thus we can use conservation of potential and kinetic energy to determine the velocity at the bottom of the first ramp.
In conservation of energy,
K1 + U1 = K2 + U2
Where K1 = initial kinetic energy,
K2 = Final kinetic energy
U1 = Initial potential energy
U2 = Final potential Energy
At this first ramp, initial kinetic energy and final potential energy are both zero, thus U1 = K2
Initial Potential energy(U1) = Mgh
So, U1 = M x 9.81 x 11.5 = 112.82M
Final Kinetic Energy(K2) = ½Mv²
So, from equation of conservation of energy,
112.82M = ½Mv²
Now, M will cancel out,so,
112.82 = ½v²
Multiply both sides by 2 to get ;
225.64 = v²
Thus,
v = √225. 64
v = 15.02 m/s.
Since the, second ramp is also frictionless , we can use the equation of conservation of potential and kinetic energy used earlier to determine the velocity at a height of 6.25 m.
Thus,
Final Potential Energy(U2) = M x 9.81 x 6.25 = 61.81M
Now, for us to determine the block’s kinetic energy at this height position, we have to determine the change in Potential energy from the beginning on the first ramp and now on the second ramp
Thus,
KE = 112.82M – 61.81M = 51.51M
½Mv² = 51.51M
M will cancel out and thus,
½v² = 51.51
Multiply both sides by 2 to get;
v² = 51.51 x 2 = 103.02
v = √103.02 = 10.15 m/s
This is approximately 10.15 m/s.
The speed of the block is 10.15 m/s when it is 6.25m above the ground.
Conservation of energy:
(A) The block will rise to the same height it started at. The distance
along the second ramp is;
D = 11.5/sin21.5° = 11.5/0.3665 = 31.38m
(B) From the law of conservation of energy,
K₁ + U₁ = K₂ + U₂
Where K₁ = initial kinetic energy,
K₂ = Final kinetic energy
U₁ = Initial potential energy
U₂ = Final potential Energy
The initial kinetic energy and final potential energy are both zero, thus U₁ = K₂
Initial Potential energy
U₁ = Mgh
U₁ = M x 9.81 x 11.5 = 112.82M
Final Kinetic Energy
K₂= ½Mv²
So, from the equation of conservation of energy,
112.82M = ½Mv²
112.82 = ½v²
225.64 = v²
v = 15.02 m/s.
we can use the equation of conservation of potential and kinetic energy used earlier to determine the velocity at a height of 6.25 m.
Potential Energy at 6.25m is:
U= M x 9.81 x 6.25 = 61.81M
So the Kinetic energy
K = 112.82M – 61.81M = 51.51M
½Mv² = 51.51M
½v² = 51.51
v² = 51.51 x 2 = 103.02
v = 10.15 m/s
Learn more about conservation of energy:
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